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  4. 2024
  5. VOL 46, NO 5 (2024)
  6. pp. 74-91

REMOTELY MANAGE THE POWER OF IOT DEVICES

S. Tsyrulnyk, M. Tsyrulnyk, V. Tkachuk, O. Kylymchuk

Èlektron. model. 2024, 46(5):74-91

https://doi.org/10.15407/emodel.46.05.074

ABSTRACT

This paper considers the practical aspects of designing a programmable power supply unit with  remote control based on Quick Charge technology. To build a programmable power supply unit with remote control and mobile phones with power sources/chargers using Quick Charge 2.0, 3.0 technology.

This work presents a scheme and software for the control module of a programmable power supply unit based on Quick Charge technology, which works in accordance with the developed algorithms. The conducted modeling and experimental studies confirmed the possibility of remotely changing the output voltage of the adapter with the help of the proposed control module and the corresponding software.

Remote power management of the IoT device can be performed using USB ports, Bluetooth wireless interfaces, Wi-Fi.

KEYWORDS

power supply unit with remote control, Quick Charge, control module, HVDCP.

REFERENCES

  1. Dromenko, V., & Kudas, M. (2021). Computer-integrated laboratory power source control system. Mechatronic Systems: Innovation and Engineering. Kyiv National University of Technology and Design. https://zenodo.org/records/8364670.
  2. Programmable Power Supplies. | Programmable Power Supply. Power Supplies & EMI Filters | AstrodyneTDI. URL: https://www.astrodynetdi.com/blog/programmable-power-supplies.
  3. Guan, S., Duan, H., Deng, M., Zhang, Q., & Hao, B. (2011). The application of intelligent power management system in engineering seismograph. 2nd International Conference on Artificial Intelligence, Management Science and Electronic Commerce (AIMSEC) (pp. 4416-4418). IEEE. DOI: 10.1109/AIMSEC.2011.6009898
  4. Lanzisera, S., Weber, A. R., Liao, A., Pajak, D., & Meier, A. K. (2014). Communicating power supplies: Bringing the internet to the ubiquitous energy gateways of electronic devices. IEEE Internet of things journal, 1(2), 153-160. https://doi.org/10.1109/jiot. 2014.2307077.
  5. Runhong, H., Yang, L., Chengzhi, W., Xiaoyi, G., Ming, L., & Fuzeng, Z. (2023). The Research and Application of the Batch Testing Technology for the Power Distribution IOT Intelligence. IEEE 3rd International Conference on Electronic Technology, Communication and Information (ICETCI) https://doi.org/10.1109/icetci57876.2023. 10176497
  6. Xiong, D., Chen, X., Martinek, R., Wen, H., Luo, D., & Smulko, J. (2020). Design of intelligent low-voltage load switch for remote control system in smart grid. Iranian Journal of Science and Technology, Transactions of Electrical Engineering. https://doi.org/10.1007/ s40998-020-00370-0.
  7. Huang, T.C., Peng, R.H., Tsai, T.W., Chen, K.H., & Wey, C.L. (2014). Fast charging and high efficiency switching-based charger with continuous built-in resistance detection and automatic energy deliver control for portable electronics. IEEE Journal of Solid-State Circuits, 49(7), 1580-1594. DOI: 10.1109/JSSC.2014.2312411
  8. Tsyrulnyk, S., Tromsiuk, V., Borodai, Y., Metelytsya, A., & Nepiyvoda, M. (2023). An Intelligent Adaptive DC Voltage Stabilization with a Digital Control Contour. CEUR Workshop Proceedings (CEUR-WS.org), P. 248-262. https://ceur-ws.org/Vol-3403/paper20.pdf.  
  9. Tsyrulnyk, S., Tromsyuk, V., Bogach I.M., Tsyrulnyk, M., & Potapova, N. (2023). Programmable Power Unit Supplies Based on Quick Charge Technology. CEUR Workshop Proceedings (CEUR-WS. org), P. 136-150. https://ceur-ws.org/Vol-3168/paper11.pdf.
  10. PoE power supply — how not to make a mistake with the standard. Network equipment – https://e-server.com.ua/uk/poradi/zhivlennja-poe-jak-ne-pomilitisja-zi-standartom.
  11. Review, Teardown: Anker PowerCore+ 10050 (A1310) QC2.0 Power Bank. Gough’s Tech Zone. URL: https://goughlui.com/2016/05/29/review-teardown-anker-powercore-10050-a1310-qc2-0-power-bank.
  12. Team G. Introduction to Quick Charge 2.0 and 3.0 | HVDCP | Granite River Labs. Granite River Labs | Engineering Services & Testing Automation Solutions. URL: https://www.graniteriverlabs.com/en-us/technical-blog/qualcomm-quickcharge-qc2-qc3.
  13. Tsyrulnyk, S., Tromsyuk, V., Tsyrulnyk, M., & Rymar, P. (2021). Energy Monitoring System based on IoT. In CEUR Workshop Proceedings (CEUR-WS. org), 3039. 136-153. https://ceur-ws.org/Vol-3039/paper2.pdf.

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